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Unlike document-based approaches where system specifications are scattered across numerous text documents, [[Spreadsheet|spreadsheets]], and [[Diagram|diagrams]] that can become inconsistent over time, MBSE centralizes information in interconnected models that automatically maintain relationships between system elements. These models serve as the authoritative source of truth for [[Systems design|system design]], enabling automated verification of requirements, real-time impact analysis of proposed changes, and generation of consistent documentation from a single source. This approach significantly reduces errors from manual synchronization, improves traceability between requirements and implementation, and facilitates earlier detection of design flaws through simulation and analysis.
The MBSE approach has been widely adopted across industries dealing with complex systems development, including aerospace, defense, rail, automotive, and manufacturing.<ref>{{Cite journal |last1=Nouacer |first1=Réda |last2=Djemal |first2=Manel |last3=Niar |first3=Smail |last4=Mouchard |first4=Gilles |last5=Rapin |first5=Nicolas |last6=Gallois |first6=Jean-Pierre |last7=Fiani |first7=Philippe |last8=Chastrette |first8=François |last9=Lapitre |first9=Arnault |last10=Adriano |first10=Toni |last11=Mac-Eachen |first11=Bryan |date=2016-11-01 |title=EQUITAS: A tool-chain for functional safety and reliability improvement in automotive systems |url=https://www.sciencedirect.com/science/article/pii/S0141933116301156 |journal=Microprocessors and Microsystems |language=en |volume=47 |pages=252–261 |doi=10.1016/j.micpro.2016.07.020 |issn=0141-9331|url-access= }}</ref><ref>{{Cite book |last1=Chen |first1=B. |title=2018 International Conference on Intelligent Rail Transportation (ICIRT) |last2=Zhang |first2=S. |last3=Wang |first3=B. |date=December 2018 |isbn=978-1-5386-7528-1 |pages=1–5 |chapter=A Case Study of MBSE Method Used in the EMU Train Design |doi=10.1109/ICIRT.2018.
The [[International Council on Systems Engineering]] (INCOSE) defines MBSE as the ''formalized application of modeling to support system requirements, design, analysis, verification and validation activities beginning in the conceptual design phase and continuing throughout development and later life cycle phases.''<ref name=":022" /><ref>{{Cite web |title=Model-Based Systems Engineering (MBSE) (glossary) - SEBoK |url=https://sebokwiki.org/wiki/Model-Based_Systems_Engineering_(MBSE)_(glossary) |access-date=2021-04-06 |website=sebokwiki.org}}</ref>
==History==
The first known prominent public usage of the term "Model-Based Systems Engineering" is a book by A. Wayne Wymore with the same name.<ref>{{Cite book|last=Wymore|first=A. Wayne
In September 2007, the MBSE approach was further generalized and popularized when [[International Council on Systems Engineering|INCOSE]] introduced its "MBSE 2020 Vision", which was not restricted to SysML, and supported other competitive modeling language standards, such as AP233, HLA, and [[Modelica]].<ref>{{Cite journal |date=September 2007 |title=Systems Engineering Vision 2020, version 2.03 |url=http://www.ccose.org/media/upload/SEVision2020_20071003_v2_03.pdf |journal=INCOSE Technical Paper |issue=INCOSE-TP-2004-004-02}}</ref> <ref name=":0">{{Cite web |title=start [MBSE Wiki] |url=https://www.omgwiki.org/MBSE/doku.php?id=start |access-date=2021-04-06 |website=www.omgwiki.org}}</ref> According to the MBSE 2020 Vision: "MBSE is expected to replace the document-centric approach that has been practiced by systems engineers in the past and to influence the future practice of systems engineering by being fully integrated into the definition of systems engineering processes."
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